Tunable electrically small conical folded dipole antenna used as a Mesoband high-power microwave source

Eric S. Ramon; Sandra Bernal; Miena M.H. Armanious; J. Scott Tyo; Michael C. Skipper; Michael D. Abdalla

doi:10.1109/LAWP.2016.2519511

Tunable electrically small conical folded dipole antenna used as a Mesoband high-power microwave source

Eric S. Ramon, Sandra Bernal, Miena M.H. Armanious, J. Scott Tyo, Michael C. Skipper, Michael D. Abdalla

Optical Sciences, College of

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

High-power microwave (HPM) moderate-band (MB) sources combine simple design concepts seen in ultrawideband (UWB) sources, but with longer pulses to produces higher energy spectral densities. These factors allow the designs to be more compact and less complicated than many narrowband HPM sources. In this letter, we will demonstrate from both simulation and experimental results the operation of a electrically small, tunable, self-resonant, mesoband source utilizing a conical folded dipole antenna as the energy storage and radiating element. The system is based on a previous design for an HPM folded helix antenna that has a resonant frequency of 46 MHz and is charged to 70 kV. The design presented here utilizes a tunable capacitance that allows the resonant frequency to be tuned between 52 and 87 MHz with ka =0.58 at the lowest resonant frequency.

Original language	English (US)
Article number	7386597
Pages (from-to)	1614-1617
Number of pages	4
Journal	IEEE Antennas and Wireless Propagation Letters
Volume	15
DOIs	https://doi.org/10.1109/LAWP.2016.2519511
State	Published - 2016

Keywords

Antennas
high-power electromagnetics

ASJC Scopus subject areas

Electrical and Electronic Engineering

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10.1109/LAWP.2016.2519511

Cite this

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title = "Tunable electrically small conical folded dipole antenna used as a Mesoband high-power microwave source",

abstract = "High-power microwave (HPM) moderate-band (MB) sources combine simple design concepts seen in ultrawideband (UWB) sources, but with longer pulses to produces higher energy spectral densities. These factors allow the designs to be more compact and less complicated than many narrowband HPM sources. In this letter, we will demonstrate from both simulation and experimental results the operation of a electrically small, tunable, self-resonant, mesoband source utilizing a conical folded dipole antenna as the energy storage and radiating element. The system is based on a previous design for an HPM folded helix antenna that has a resonant frequency of 46 MHz and is charged to 70 kV. The design presented here utilizes a tunable capacitance that allows the resonant frequency to be tuned between 52 and 87 MHz with ka =0.58 at the lowest resonant frequency.",

keywords = "Antennas, high-power electromagnetics",

author = "Ramon, {Eric S.} and Sandra Bernal and Armanious, {Miena M.H.} and Tyo, {J. Scott} and Skipper, {Michael C.} and Abdalla, {Michael D.}",

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AU - Ramon, Eric S.

AU - Bernal, Sandra

AU - Armanious, Miena M.H.

AU - Tyo, J. Scott

AU - Skipper, Michael C.

AU - Abdalla, Michael D.

PY - 2016

Y1 - 2016

N2 - High-power microwave (HPM) moderate-band (MB) sources combine simple design concepts seen in ultrawideband (UWB) sources, but with longer pulses to produces higher energy spectral densities. These factors allow the designs to be more compact and less complicated than many narrowband HPM sources. In this letter, we will demonstrate from both simulation and experimental results the operation of a electrically small, tunable, self-resonant, mesoband source utilizing a conical folded dipole antenna as the energy storage and radiating element. The system is based on a previous design for an HPM folded helix antenna that has a resonant frequency of 46 MHz and is charged to 70 kV. The design presented here utilizes a tunable capacitance that allows the resonant frequency to be tuned between 52 and 87 MHz with ka =0.58 at the lowest resonant frequency.

AB - High-power microwave (HPM) moderate-band (MB) sources combine simple design concepts seen in ultrawideband (UWB) sources, but with longer pulses to produces higher energy spectral densities. These factors allow the designs to be more compact and less complicated than many narrowband HPM sources. In this letter, we will demonstrate from both simulation and experimental results the operation of a electrically small, tunable, self-resonant, mesoband source utilizing a conical folded dipole antenna as the energy storage and radiating element. The system is based on a previous design for an HPM folded helix antenna that has a resonant frequency of 46 MHz and is charged to 70 kV. The design presented here utilizes a tunable capacitance that allows the resonant frequency to be tuned between 52 and 87 MHz with ka =0.58 at the lowest resonant frequency.

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KW - high-power electromagnetics

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Tunable electrically small conical folded dipole antenna used as a Mesoband high-power microwave source

Abstract

Keywords

ASJC Scopus subject areas

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